Gateway registry methods and systems

ABSTRACT

A gateway device for managing a set of two or more local management devices at a location. A system for networks at a plurality of locations. A method of operating a gateway device in a control network. A method for storing information to operate a gateway device in a control network. A method for storing information to operate a replacement gateway device in a control network.

CROSS-REFERENCE

This application claims the benefit of U.S. Provisional Application No.60/804,550, filed Jun. 12, 2006, which application is incorporatedherein by reference.

BACKGROUND

Vendors such as premises vendors, communication service vendors, andInternet portal vendors may desire to extend their relationship withvendees beyond the immediate transaction. Additionally, vendees desireadditional premises management services beyond the immediate transactionfor premises, communication services, or Internet portals. There is aneed for advanced premises management services, methods, devices, andsystems.

INCORPORATION BY REFERENCE

All publications and patent applications mentioned in this specificationare herein incorporated by reference to the same extent as if eachindividual publication or patent application was specifically andindividually indicated to be incorporated by reference. The followingapplication incorporates by reference application Ser. No. 11/084,232,filed on Mar. 16, 2005 and application Ser. No. 11/084,657 filed on Mar.16, 2005, in their entirety.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram of a system for managing control networksincluding a control network including a gateway, according to anembodiment.

FIG. 2 is a block diagram of a system for managing a set of controlnetworks with gateway devices including a set of gateway servers,according to an embodiment.

FIG. 3 is a block diagram of a system for managing control networksshowing management of keys, serial numbers and account numbers,according to an embodiment.

FIG. 4 is a block diagram of a system for managing control networksshowing storage of account information, according to an embodiment.

FIG. 5 is a block diagram of a system for managing control networksshowing initialization of a gateway device, according to an embodiment.

FIG. 6 is a block diagram of a system for managing control networksshowing communication of a control network including a gateway deviceand a gateway server, according to an embodiment.

FIG. 7 is a block diagram of a system for managing control networksshowing management of a control network, according to an embodiment.

FIG. 8 is a block diagram of a gateway device and showing locationmanagement devices, according to an embodiment.

DETAILED DESCRIPTION

While preferred embodiments of the present invention have been shown anddescribed herein, such embodiments are provided by way of example only.Various alternatives to the embodiments of the invention describedherein may be employed in practicing the invention.

Certain embodiments include methods, devices and systems forinitializing and validating a system gateway device, also referred to asa gateway or a gateway device, which is used to manage a local networkof location management devices at a location. The network and/or thedevices may be managed using the gateway and can manage the networkand/or devices from a location remote from the location of the devicesand/or gateway. The location of the devices, for example, can be apremises such as a residence or business premises, and the devicesincluding, for example, a thermostat or a camera, can be managed at thepremises from a remote location such as, for example, from an office orusing a cellular phone.

In some embodiments, the system gateway devices connect to servers(gateway servers) that contain the account information for the user ofthe system. The gateway itself does not necessarily know what server theaccount is on, and thus determines, is shown, or is told which servercontains the account to manage the account remotely. The methods,systems, and devices provided herein make use of a gateway registry. Thegateway registry communicates to the gateway the location of the servercontaining the account of the account associated with the gateway. Thelocation may comprise, for example, the address of the server. Adepiction of an embodiment of a gateway registry system is provided inFIG. 1. FIG. 1 is a block diagram of a system 122 for managing controlnetworks including a control network 120 including a gateway 110,according to an embodiment. FIG. 1 shows IP devices 112, 114 connectedto router 108, a gateway 110 connected to IP devices 112, 114 throughrouter 108 and connected through the router 108, through modem 106, andthrough Internet 104 to a central repository (the gateway registry 102),two gateway servers 116, 118 (user's gateway server 116 and anothergateway server containing other users' accounts 118), connected throughInternet 104, modem 106 and router 108 to gateway 110.

Once the gateway server location is determined, and the gateway serveris contacted, the gateway, in some embodiments, is validated by thegateway server in order for the gateway to gain access to the useraccount. Once this is done by the methods provided herein, and/or usingthe devices and/or systems provided herein, in order to manage theaccount, the gateway downloads the configuration for that account,wherein the configuration is in the account on the gateway server,and/or the gateway uploads data to the account from the premises inwhich it is installed.

In some embodiments, the configuration may be adjusted from a locationremote to the premises where the local network that the gateway managesis located. In other embodiments, the configuration may be adjusted fromthe location of the premises where the local network that the gatewaymanages is located. In yet other embodiments, the configuration may beadjusted from either or both the location of the premises and/or from aremote location to the premises where the local network that the gatewaymanages is located.

For example, FIG. 2 is a block diagram of a system 226 for managing aset of control networks (for example, control network 232) with gatewaydevices (for example, Device A 228, IP device B 230) including a set ofgateway servers 216, 218, according to an embodiment. FIG. 2 depicts auser at a computer 212 connected to Internet 210. Further depicted is agateway device 206 comprising the serial number (serial #) of thegateway, which may be its MAC id or its Ethernet address, a key for thegateway, which may be installed by the manufacturer of the gateway, andthe address of the registry, which may be a Uniform Resource Locator(URL) address for the registry server 214. In the embodiment depicted inFIG. 2, operational server (OPS) 204 is connected to database 202 (whichmay be called a master database or a table) which contains the serialnumbers, keys and account identifications (which may be called accountnumbers) associated with gateways. OPS 204 is coupled to Internet 210through a secure connection including firewall 208. Master database 202can be used to communicate to gateway registry 214 the serial number ofthe gateway 206, the account number (or account identification)associated with the gateway, and/or the server address of the accountassociated with the gateway. Master database 202 can be used tocommunicate to the gateway server account information associated withthe gateway, the gateway account number, and/or the key associated withthe gateway. Gateway registry 214 of the embodiment depicted in FIG. 2,is coupled to Internet 210, and comprises a table 220 comprising theaccount number and gateway servers associated with gateways serialnumbers. The table 220 of the Gateway registry 214 of the embodimentdepicted in FIG. 2 also comprises the addresses and/or information aboutwhich gateway servers 216, 218 connected to Internet 210 host theaccounts associated with gateway account numbers and keys (which areassociated with a gateway 206). The Gateway servers 216, 218 comprisetables 222, 224, 226 which contain account information associated withgateways (for example, gateway 206). The account information in a table(for example table 222) can be, for example, the account number of agateway 206, the key associated with a gateway 206, configuration fordevices 228, 230 associated with a gateway 206, operation time or runtime associated with a gateway 206 or control network 232, and historyof the gateway 206, devices 228, 230 associated with the gateway 206and/or the control network 232, or the control network in general 232.There may be several gateway servers, 216, 218, and there may bemultiple tables (for example tables 224, 226) associated with a server(for example server 218). Typically, an account associated with agateway (for example gateway 206) is located in a single table (forexample table 222) on a single server (for example server 216). However,other arrangements are contemplated and described herein.

The keys may be protected and controlled such that only authorizeddevices, systems, and/or users may access the keys. The keys may beencrypted when transferred over an un-secure connection or a secureconnection. The keys may be protected by a firewall. The accounts on theservers may, in some embodiments, comprise account configurations,operation time and/or run time information, and/or account historyinformation.

The embodiment of FIG. 2 also shows example connections to and betweeneach of the elements shown through which communication can be passed asdescribed herein. The connections shown in FIG. 2 need not be physicalconnections, and elements and devices shown connected in FIG. 2 may becoupled together in another manner, such as through another device, orwirelessly, for non-limiting examples.

Provided herein are methods and systems by which a gateway can discoverthe server that hosts the user's account. Provided herein are gatewaydevices and/or systems which can discover the server that hosted theuser's account.

Each gateway device contains a unique hardware address for its Ethernetconnection. Ethernet devices have unique addresses, also called gatewaydevice Ethernet addresses. The Ethernet address of a gateway device maybe used as a unique serial number, or another combination of numbers andletters may be used as the unique serial number for a particulargateway. In some embodiments, the gateway stores the unique hardwareaddress for initialization of the gateway device. At production time, orthereafter, a unique key is placed in, and stored in, the gatewaydevice. Both the unique address and the unique key are also stored in amaster database for subsequent linking to an account once the gateway isassociated to an account, and/or for subsequent populating of a gatewayregistry table and/or subsequent populating of a gateway server table.The master database may be securely controlled with various levels ofaccess allowed to authorized personnel only, for example, such ascustomer service personnel managing the master database. The masterdatabase may be protected by a firewall device (a firewall).

According to some embodiments, a central repository contains all knownaccount numbers and the gateway unique numbers associated with theaccounts. The location of the central repository is also stored by thegateway. In some embodiments the central repository is a gatewayregistry and/or gateway registry server of all known accounts andgateways. The gateway registry may also be populated with the gatewayserver information which may be known within the master database.Alternatively, the gateway server information may be known by a thirdparty controlling the gateway server who communicates the serverinformation to the registry directly, and the registry then records theserver address associated with a particular account. In anotherembodiment, the gateway server information may be known by a third partycontrolling the gateway server who communicates the server informationto the master database, directly or indirectly, and the master databasethen populates the registry with the server information associated withthe account.

In some embodiments, the central repository (gateway registry) ispopulated using a secure connection to the Internet (firewall protected)with the account number associated with the gateway device and theserial number of the gateway associated with the account number andsystem

FIG. 3 is a block diagram of a system 326 for managing control networks(for example control network 332) showing management of keys, serialnumbers and account numbers, according to an embodiment. Shown in FIG. 3are couplings between and information within and passed between gatewaydevice 306, operational server master database 302, and gateway registry314. In the embodiment of FIG. 3, the operational server (OPS) 304and/or a customer service entity, upon association of a gateway device306 to an account, populates a master database 302 with the accountidentification (which may be an account number) associated with thegateway device 306, the serial number of the gateway 306 associated withthe account identification, and the key associated with the gateway 306.Operational server (OPS) 304 and/or a customer service entity, as shownin FIG. 3, may also populate a table 312 of the gateway registry 314using a secure coupling to Internet 310 (firewall 308 protected) withthe account identification associated with the gateway device 306 andthe serial number of the gateway 306 associated with the accountidentification.

According to some embodiments, upon association of a gateway device toan account (which is identified by the account identification, oraccount number), the gateway server may be populated with the accountidentification (or account number) associated with the gateway deviceand the key associated with the gateway device through use of theoperational server (OPS) and/or a customer service entity. The masterdatabase of the OPS may provide the account identification associatedwith the gateway device, and/or the key of the gateway device to thegateway server.

In order to find the proper server to populate as described, in someembodiments, identification of the server that contains the accountassociated with the gateway device is performed by the OPS when theaccount identification and unique address is populated in the gatewayregistry. In some embodiments, the server information is temporarilystored in the master database, or temporarily stored by the OPS asufficient amount of time to populate the server with the key associatedwith the gateway and the account number associated with the gatewaydevice. In some embodiments, the server information is storedpermanently in the master database when the gateway registry ispopulated by the master database. In some embodiments, the server isdesignated by the OPS. In some embodiments a third party or system thatcan manage the server and may or may not manage accounts on the serverdesignates the server for an account.

In some embodiments, the gateway server information may be known by athird party controlling the gateway server who communicates the serverinformation to the registry directly, and the registry then records theserver address associated with a particular account. In anotherembodiment, the gateway server information may be known by a third partycontrolling the gateway server who communicates the server informationto the master database, directly or indirectly, and the master databasethen populates the registry with the server information associated withthe account.

For example, FIG. 4 is a block diagram of a system 426 for managingcontrol networks (not shown) showing storage of account information,according to an embodiment. FIG. 4 depicts couplings between, andinformation within and passed between, operational server masterdatabase 402 and gateway server 406 using a method wherein operationalserver (OPS) 404 and/or a customer service entity uses master database402 to populate a table 412 of a gateway server 406 using a secureconnection to Internet 410 (firewall 408 protected) with the accountidentification (account number) associated with the gateway device, andwith the key associated with the gateway device.

The central repository, in some embodiments a gateway registry and/orgateway registry server, of all known accounts and gateways is used tofind which gateway server, called the account server and/or the gatewayserver, in some embodiments, holds the account information associatedwith the gateway (see, for non-limiting example, FIGS. 1 and 2). Whilethere may be several gateway registries existing, a gateway device knowsonly an address for, or location of, the gateway registry which containsits gateway unique address, account identification, and the gatewayserver address (or location), for the gateway server holding the accountassociated with the gateway device. In some embodiments, the gatewayregistry, registries, the gateway server, and/or gateway servers, are indifferent physical locations, and/or within different pieces ofhardware. In some embodiments, the gateway registry, registries, thegateway server, and/or gateway servers, are conceptual locations, and/orlogical constructs within a single piece of hardware. Variouscombinations of conceptual locations, logical constructs, physicallocations, and different pieces of hardware are also contemplated hereinfor the gateway registry, registries, the gateway server, and/or gatewayservers in some embodiments.

At power-on, the gateway device initializes, and sends a request to thecentral repository (for example, the gateway registry) specifying onlythe gateway unique address, for example a serial number for the gatewayor the Ethernet address for the gateway. In some embodiments, the serialnumber for the gateway is the Ethernet address for the gateway. Thisaddress is then used to look up the user account associated with thegateway unique address, and respond back to the gateway device with thelocation of the server that it is to use to find the account associatedwith the gateway device. The gateway server at such location providedcomprises the account associated with the gateway device which requestedthe information from the gateway registry. In some embodiments, the useraccount looked up is the account number associated with the uniqueaddress provided to the registry server. In other embodiments, the useraccount looked up is the account identification associated with theunique address provided to the registry server. The gateway serveraddress received and the user account looked up are not sensitive, inthat they are not, in and of themselves, sufficient to access thegateway server (as described herein), or to access the account on thegateway server associated with the gateway for which the unique addresswas provided.

For example, FIG. 5 is a block diagram of a system 526 for managingcontrol networks (for example, control network 532) showinginitialization of a gateway device 502, according to an embodiment. FIG.5 is a block diagram depicting couplings between and information withina gateway device 502 and a gateway registry 514 used to execute a methodof determining where the account associated with the gateway device 502is located, and to determine the account number associated with thegateway 502. In the embodiment shown in FIG. 5, gateway 502 initializes,and sends a request to gateway registry 514 at the registry addressstored in gateway memory, for example, in a table 512 of the registry514. The request to the registry specifies the serial number for thegateway stored in the table 512. In the FIG. 5 embodiment, the serialnumber is used to look up the user account number associated with thegateway serial number, and the location of the server that contains theaccount associated with the gateway serial number. The registry 514responds back to the gateway 502 with the account number (or accountidentification, in some embodiments) and location of the server thatcontains the account associated with the gateway. The gateway 502 storesthe account number and the server location in its memory, in someembodiments.

At production time, in some embodiments, a unique key is placed in, andstored in, the gateway device. This key is then recorded by anotherrepository, in some embodiments, the Operational Server, OPS, and/or aCustomer Support Server. The key may be recorded as a key/value pairwith the unique address of the device. The key may be the basis of anauthentication that is used to validate that the gateway is the gatewayfor the user's account in order to access the account on the gatewayserver. In some embodiments, this key is used with a cryptographic hashto authenticate that the gateway is the correct gateway for the user'saccount. In some embodiments, this key is used with a cryptographic hashto create the authentication that the gateway is the correct gateway forthe user's account. In some embodiments, this key is stored in thegateway device and the account identification looked up and received bythe gateway from the gateway registry is used with a cryptographic hashto create the authentication that the gateway is the correct gateway forthe user's account.

For example, FIG. 6 is a block diagram of a system 626 for managingcontrol networks (for example control network 626) showing communicationof a control network 626 including a gateway device 602 and a gatewayserver 606, according to an embodiment. FIG. 6 depicts a block diagramrepresentation of an embodiment of the invention depicting couplingsbetween and information within gateway device 602 and gateway server 606used to execute methods for managing an account on the server 606associated with the gateway device 602 and local management devices 628,630 on a local network 632 located at a location remote from the server606. In the embodiment shown in FIG. 6, once gateway device 602 iscommunicated to with the location of the server 606 upon which theaccount resides associated with the gateway device 602 (i.e. hosting theaccount associated with the gateway device) and the account number (oraccount identification) associated with the gateway device 602, thegateway device 602 sends an authentication based on the key stored inthe gateway 602 and the account number (or account identification)stored in the gateway 602 to the server location of the server 606hosting the account associated with the gateway 602. If theauthentication provided to server 606 by gateway 602 matches aserver-generated authentication based on the key associated with theaccount number stored in memory server 608, the gateway device 602 isallowed to access and manage the account associated with the gatewaydevice on the server. This method, and devices and systems adapted tocarry out this method validates that the gateway 602 is genuine, and notbeing impersonated by another device not authorized to manage or controlthe local network of devices 628, 630 associated with the gateway 602.

In some embodiments, the unique address to user account mapping isseparate from the gateway key to user account mapping. In the firstmapping, the gateway device uses the gateway serial number stored withinthe gateway device and the gateway registry location to contact thegateway registry in order to receive the location of the registry serverand the account identification for the account associated with thegateway device. In the second mapping, the gateway device uses thelocation received from the registry to contact the gateway server andthen uses the key stored on the gateway device and the accountidentification received from the registry as the bases for anauthentication that unlocks the account associated with the gatewaydevice to the gateway device.

Once the first mapping has occurred, in some embodiments, the gatewaystores the location of the registry server and the accountidentification received by the registry in temporary memory which can beaccessed so long as the gateway is not powered-off and/or does not losepower. In some embodiments, once the first mapping has occurred, thegateway stores the location of the registry server and the accountidentification received by the registry in permanent memory and isaccessible by the gateway regardless of whether the gateway loses poweror is powered-off.

Once a gateway server has been identified by a gateway device, and thegateway server has validated that the gateway is genuine per the methodsand by devices and systems described herein, the network of localmanagement devices coupled to the gateway at the location can beremotely managed from a location remote to the location of the gatewaydevice and location management devices by viewing the account on theserver through, for example, a remote network such as the Internet.

For example, FIG. 7 is a block diagram of a system 726 for managingcontrol networks (not shown) showing management of a control network(not shown), according to an embodiment. FIG. 7 depicts couplingsbetween a remote management device 720 capable of managing a network(not shown) of local management devices at a location remote from theremote management device 720. In such embodiment, the remote managementdevice 720 couples (through, for example, Internet 710) to gatewayserver 706 containing a table 708 containing account information for thenetwork of local management devices (not shown) associated with thegateway device (not shown) and with the account information in the table708 on the gateway server 706. The remote management device 720 thus maybe used to manage and control the account information on the server 706,which, as shown in FIG. 6 couples with the gateway device 602 at thelocation which couples to the local management devices 628, 630 at thelocation. A user of the remote management device 720, which may be acomputer, PDA, cellular phone, or another device coupled to the Internetwirelessly or wired, may, for example, change configuration data in thetable 708 of the server 706, wherein the configuration data shows thecurrent status of a device on the local network connected to the gatewayassociated with the account, such as the temperature in a particularroom, or view the output of a camera in a child's room, or view theinside of a vault, or turn on a light, or unlock a door, or anycombination of these and other activities. Other types of devices areprovided and contemplated herein, any of which could be managed usingthe system, devices, and methods described herein.

FIG. 8 is a block diagram of a gateway device 802 and showing locationmanagement devices 824, 826, 828, 830, 832, 834, 836, according to anembodiment. FIG. 8 shows an embodiment of a gateway device 802 coupledto a set 838 of network devices at a location. The gateway deviceembodiment shown in FIG. 8 is a block diagram depicting logicalrepresentations for each of the elements within the gateway device 802,and a block representation of multiple local management devices 824,826, 828, 830, 832, 834, 836 at the location which the gateway device802 can manage and control. In the embodiment shown, gateway device 802comprises logic 816 for managing which, for non-limiting example, caninclude monitoring and controlling, a set of local management devices838 connected to a local network located at the location. The gatewaydevice 802, in some embodiments, is also located at the location andconnected to the local network. The logic of the embodiment shown inFIG. 8 comprises, for non-limiting example, automations 804, mode 806,task scheduler 813, and server updater 814. The gateway device of thisembodiment comprises an interface that allows connectivity to a remotenetwork over which the gateway can communicate to remote systems whichare remote to the location. Such remote systems may include a gatewayserver, a gateway registry, an operational server, a remote managementdevice, as provided herein. The gateway device may also have aninterface for communication to at least one local management device (forexample, local management devices 824, 826, 828, 830, 832, 834, 836), aprocessor (not shown), memory 810, 812, an address of a gateway registry(in this case, a URL, although other addresses are contemplated), aserial number of the gateway, and a key.

Although not shown, the gateway device 802 of the embodiment of FIG. 8comprises logic that, upon initialization of the gateway uses theaddress of the gateway registry to communicate with the gatewayregistry, sends a request to the gateway registry specifying the serialnumber of the gateway, receives a response with an address of the serverupon which an account associated with the gateway is stored, andreceives a response with an identification of an account for managingthe location associated with the gateway; and logic that communicateswith the server upon which the account associated with the gateway isstored by using the identification and authentication informationderived based on the key.

In the embodiment shown in FIG. 8, devices 824, 826, 828, 830, 832, 834,836 on the network that the gateway 802 can manage and control include,as non-limiting examples, a motion detector 824, a thermostat 826, adoor sensor 828, a camera 830, and other local management devices (fornon-limiting example, devices 832, 834, 836). The gateway 802 is shownhaving conceptual placeholders 816 for devices (not the actual devices)within it. These conceptual placeholders 816 may, in some embodiments,store the settings, software, logic, and hardware for controlling andmanaging the actual devices which are external to the gateway at thelocation. The embodiment gateway in FIG. 8 can communicate to thedevices by RF 818, Z-wave 820, and/or IP 822, as non-limiting examples.In other embodiments, the gateway 802 can communicate to localmanagement devices by any other communication means, including by wiredand wireless means.

When the configuration data on the server is changed, the gateway whichcontains settings for each local management device at the locationconnected to it, can update its settings to conform to the serverconfiguration by contacting the server and validating that it is thegenuine gateway associated with the account stored in its memory, asdescribed herein, and accessing and downloading the configurationsettings or the changed configuration settings on the server for theaccount.

Provided herein is a method, system, and device wherein an account maybe moved from server to server as needs change (moving data-centers,etc.) without having to update the gateway devices out in the field thatthe server has changed. The gateway can communicate with the centralrepository to find the new server location by executing the method donewhen initializing. For example, when the gateway server containing theaccount associated with a particular gateway is moved, the gateway whichhas already executed the first mapping will not be able to access itsaccount using the server location stored in its memory. When the gatewaycontacts the gateway server at the location it previously received fromthe gateway registry, it receives an error message or a non-responsefrom the gateway server, since there is no account identification on thegateway server matching the account identification provided by thegateway device. When such error or non-response is detected by thegateway, the gateway can re-initialize (repeat the first mapping),determine the new server location and re-receive the accountidentification from the gateway registry, per the methods and using thedevices described herein.

Provided herein is a method and system wherein the account associatedwith the gateway device (called the previous gateway device) may beassociated with a new gateway device. The new gateway can be associatedwith an existing account on a server by first updating the masterdatabase with the new gateway serial number and new gateway key, and byassociating the new key and new serial number with the accountidentification formerly associated with the previous gateway device. Thegateway registry may then be updated by using methods and systemsdescribed herein to populate the gateway registry table with the newgateway serial number and associating the new gateway serial number withthe server address associated with the previous gateway device. Thegateway server may then be updated by using methods and systemsdescribed herein to populate the gateway server table with the newgateway key and associating the new gateway key with the server addressassociated with the previous gateway device and associating the new keywith the account identification associated with the previous gatewaydevice. Once the gateway registry and the gateway server are updated tobe associated with the new gateway device, upon initialization of thenew gateway (such as upon powering-on), the new gateway device can useembodiments of the methods and systems provided herein to allow remote(and/or local) management of the local management devices to which itcouples. It is contemplated that a new gateway device, which is also agateway device, may comprise the various embodiments of the gatewaydevice as described herein.

An embodiment allows the gateway to not have to (although it may) storeany user account information other than its gateway serial number, logicto communicate with the devices to which it is connected based onaccount information received from the gateway server, memory, aprocessor, interfaces to the local network of local management devicesand to the local management devices that the gateway manages, interfaceto systems on a network remote to the location of the local managementdevices that the gateway manages, and logic to carry out the mappings asdescribed herein. In some embodiments, the systems comprise the gatewayregistry, and the gateway server. In some embodiments, the gatewaystores history of the devices on the network managed by the gatewayand/or history of the gateway.

The authentication provided by the gateway to the gateway server toaccess the account associated with the gateway may comprise acryptographic hash of the key stored in the gateway. The authenticationmatches identical information stored on the gateway server, and allowsthe gateway server to ensure that the gateway device is genuine, and isnot in fact another device/computer trying to masquerade as the user'sgateway device.

The separately stored mappings between the account identification andthe key, and the account serial number and the account identification ofthe gateway is a security measure to ensure that it is more difficult tobreak into either the gateway registry or the gateway server anddiscover the key and account identification pair, both of which may beused to operate correctly as the gateway.

For example, an embodiment of the invention comprises any of the abovesystems or methods alone or in combination as part of a network forpremises management. The network may include premises management devicessuch as a smart thermostat. The premises management devices areconnected to a premises network which can be, for example, an RF and/orpower line network. The premises network is connected to a gateway whichin turn is connected to a broadband device such as a DSL, cable, or T1line. The gateway can alternatively or also be connected to a dial upmodem. The premises is connected to the Internet according to anembodiment. The Internet is connected to system managers at the networkoperations center. The Internet is also connected to customers of thesystem manager, for example vendors such as premises vendors,communication service vendors, or Internet portal vendors. The Internetis also connected to vendees, such as premises vendees, communicationservice vendees, or Internet portal vendees.

An embodiment may include programmable code and devices with screens ofa portal interface for premises management. For example, code with maysummarize premises management services. Code may summarize securitymanagement services and safety management services. Code may alsosummarize energy management services. Services offered by the system canbe branded and incorporated into a third part web portal, for example,in a personal portal such as one provided by Yahoo.

The look and feel of the system pane can be tailored by the serviceprovider.

In an embodiment, a system portal summary page may show a snap-shot ofthe state of the various devices in the user premises. For example, inan embodiment, the user can change premises by clicking on this box andselecting a different premises. A status pane may list the differentdevices in the user premises along with their actual states. A pendingupdates pane may show the time of the last communication between thepremises and the server as well as any pending updates waiting to besent downlink to the premises. The pictures pane shows the last several(e.g., last four) pictures taken by the camera in the user premises. Theuser can click on a thumbnail picture to look at a larger version of thephoto as well as access archived images for that camera, look at livevideo, take new pictures or delete photos. The schedule pane shows thescheduled activities for the premises. The alarm history shows anarchive of the most recent event and activity in the user premises. Thereminders pane provides a means for the system to remind the user toperform certain activities or functions related to their home orbusiness. The mode drop down button on the respective navigation barallows the user to switch between the systems modes. The QuikControldrop down allows the user to control any device that is controllable(e.g., camera, thermostat, lamps, etc.).

According to an embodiment, a method is provided for premises managementnetworking. Premises management devices connected to a gateway at apremises are monitored and controlled. According to an embodiment, anuplink-initiation signal associated with a network operations centerserver is received at the premises. In response to the uplink-initiationsignal, communications between the gateway and the network operationscenter server may be initiated from the gateway at the premises. Duringthe communications between the gateway and the network operations centerserver, information associated with the premises management devices maybe communicated.

The premises gateway can be a low-cost and standalone unit that connectsthe in-premises devices to the server. The connectivity to the Internetcan be accomplished via a broadband connection (Digital Signal 1 (T1),Digital Subscriber Line (DSL) or cable) and/or via the telephone line.Though broadband connectivity may be used, telephone connectivity may bepresent as a back-up option in case the broadband connection is lost.For premises without a broadband connection (e.g., vacation homes) atelephone-only connection can be used.

A user account may be established by the end user using personalinformation (name, payment option, etc.) of the user. The accountregistration may involve the user logging on to the system manager website and establishing a new account by entering name, address, phonenumber, payment details and/or the gateway serial number printed on thegateway in the end user's possession. In some cases the system managerservice account may already be pre-established with the gateway serialnumber and the end user simply has to update the account with personaland payment information. Multiple gateways can also be handled per useraccount.

The gateway may be registered to associate the user account on thesystem manager server (established in the previous step) with an actualgateway in the user's home. The gateway is connected to a broadbandnetwork or the telephone line in the home.

An embodiment may help provide users with a hosted and managed servicefor premises device monitoring and control for a fee, such as a monthlysubscription fee. The premises markets include residential homes,commercial multiple tenant units (MTUs) as well as small businesses.

Embodiments may provide device logging, activity logging and tracking.For example, an embodiment can log any device variable specified by theuser for up to, for example, 30 days. The user defines a logginginterval for each variable at the time of configuration. The loggingfeature can be handled by the gateway on the local device side and thedata can be transferred to the server at regular intervals. The overallvariable log for all variables can be kept on the server side. Loggingof data for more than, for example, 30 days (but no more than, forexample, 180 days) can be provided to the user, for example for anominal fee. An embodiment may provide at least, for example, a 14-dayhistory log of all user, system and device actions. An action includes achange to a device variable, system or network settings brought on byeither the system or the user (e.g., variable changed, logging enabled,device added, user notified, etc.). The user can trace back systemactivities to their cause and to the date and time they occurred. Pastactivities can be searched by variable, device, category or date.

An embodiment can support user-defined modes, such as “home,” “away,”“sleep,” “vacation,” etc. The mode the user network is in plays a factorin the determination of the actions taken (reporting, alarming,eventing, notification, etc.) by the system when variable changes occur.According to an embodiment, the user can specify alarm conditions forvariables with discrete states (e.g., binary ON/OFF). These alarms canbe reported in real-time (i.e., immediate uplink) by the gateway to theserver. The server then in turn looks at the data and determines, basedon user alarm settings, whether to notify the user or not.

According to an embodiment, for non-critical events, the system cannotify the user in non-real-time fashion regarding the state of anyvariable specified by the user. The variables chosen for user eventingcan be of any kind (discrete or continuous). The gateway updates theserver with the change of variable state/value at a regularly scheduledupload. The server continuously looks at variable data and determines,based on user eventing settings, whether to notify the user or not.Eventing conditions can be determined based on the value or state of avariable as well as the system mode. According to an embodiment, thesystem can support user alarming and eventing via the following methods:email, text messaging, pager, and/or voice telephone call (voicesynthesis).

An embodiment may provide device data monitoring and control. The usercan specify any device variable for monitoring and control via theserver portal. For example, up to 255 devices can be supported by asingle gateway. For example, up to 512 variables can be supported by asingle gateway.

The system can support an open architecture where most, if not alldevice networking protocols can be supported. Examples of specificdevice protocols supported by the system include RF and powerlineprotocols, such as GE Interlogix RF and Echelon LonWorks power line (PL& FT), simplifying the installation burden by requiring no new wires tobe installed in a premises. The LonWorks free topology twisted pairmedium (FT-10) can be supported as an option to support certaincommercial applications (e.g., office buildings).

The following is a non-exhaustive list of a few other devices supportedby the system.

-   -   1. Small data/message display—for text messages, news, weather,        stock, photos, etc.    -   2. Door latch control    -   3. Pool/spa control    -   4. Weather station    -   5. Lighting control    -   6. Elderly or disabled monitoring    -   7. Irrigation controller (Bibija)    -   8. VCR programming

The system can support cameras. For example, standard off-the-shelf IPcameras (also referred to as web cameras) may be used, such as thoseavailable from vendors such as Axis, Panasonic, Veo, D-Link, andLinksys, or other cameras manufactured for remote surveillance andmonitoring. Surveillance cameras may contain a standalone web server anda unique IP address may be assigned to the camera. The user of such acamera would typically retrieve the camera image by accessing thecamera's web page through a standard web browser, using the camera's IPaddress. In some cases the IP camera acquires a local IP address byusing a Dynamic Host Configuration Protocol (DHCP) client to negotiatean address from the local DHCP server (usually residing in the user'srouter/firewall).

According to an embodiment, a gateway can initiate all communicationswith the server. Gateway communication can either initiate based on apredetermined schedule (e.g., every 30 minutes) or due to a localpremises alarm (selected by the user).

Gateways can contact a common server for their first uplink connectionin order to obtain their assigned gateway server address, which they canuse for all subsequent uplink connections (unless changed later by thesystem). In the event that the gateway cannot connect to its designatedgateway server, it can fall back to contacting the default initialgateway in order to refresh its gateway server address.

The predetermined call initiation schedule can be programmable by theserver and can provide different intervals for broadband and telephoneintervals (e.g., every 30 minutes for broadband and every 90 minutes fortelephone).

An embodiment may be directed to a control network having a collectionof sensor and actuator devices that are networked together. Sensordevices sense something about their surroundings and report what theysense on the network. Examples of sensor devices are door/windowsensors, motion detectors, smoke detectors and remote controls.

Actuator devices receive commands over the network and then perform somephysical action. Actuator devices may include light dimmers, appliancecontrollers, burglar alarm sirens and cameras. Some actuator devicesalso act as sensors, in that after they respond to a command, the resultof that command is sent back over the network. For example, a lightdimmer may return the value that it was set to. A camera returns animage after has been commanded to snap a picture.

In addition to the foregoing, the following are various examples ofembodiments of the invention.

Some embodiments of a method for premises management networking includemonitoring premises management devices connected to a gateway at apremises; controlling premises management devices connected to thegateway at the premises; receiving, at the premises, anuplink-initiation signal associated with a network operations centerserver; and in response to the uplink-initiation signal, initiating,from the gateway at the premises, communications between the gateway andthe network operations center server; and communicating, during thecommunications between the gateway and the network operations centerserver, information associated with the premises management devices.

The uplink-initiation signal can be received via telephone and/orbroadband connection. The gateway can initiate communications betweenthe gateway and the network operations center server with at least aHypertext Transfer Protocol (HTTP) message and/or at least an ExtensibleMarkup language (XML) message. The premises management devices canmanage energy of the premises, security of the premises, and/or safetyof the premises. Many embodiments provide a hosted solution for propertydevelopers, owners and managers as well as service providers (InternetService Providers (ISPs), telcos, utilities, etc.) such as communicationservice providers and Internet portal providers. Some embodiments offera complete, turnkey, reliable, and/or cost-effective solution for thedelivery of telemetry services (e.g., energy management, security,safety, access, health monitoring, messaging, etc.) to customers.

An embodiment of the invention is directed to a business method forpremises management. Some embodiments of a business method for premisesmanagement include making an Internet portal available for access to avendee, such as a premises vendee, communication service vendee, and/oran Internet portal vendee; and at least after a transaction between thevendor and the vendee, such as a premises transaction, a communicationservices transaction, and/or Internet portal services transaction,providing premises management services via the Internet portal to thevendee.

The Internet portal can be branded with a brand of the vendor accordingto an embodiment. Examples of a premises vendor include a home builder,premises builder, and premises manager. Examples of a premises vendeeinclude a home buyer, premises buyer, and premises tenant. Examples of acommunication service vendor include an Internet service provider, atelephone company, a satellite television company, and a cabletelevision company. Examples of a communication service vendee include acustomer of the Internet service provider, a customer of the telephonecompany, a customer of the satellite television company, and a customerof the cable television company. Premises management services can manageenergy of the premises, security of the premises, and/or safety of thepremises.

An embodiment of the invention is directed to a system. The systemincludes a network of premises management devices, a gateway coupled tothe network and premises management devices, a server coupled to thegateway by a communication medium and a portal coupled to thecommunications medium. The portal provides communication with thepremises management devices.

According to various embodiments of the invention alone or in variouscombinations: the communications medium may comprise the Internet; theportal may comprise an Internet portal; and/or the portal may be brandedwith the name of a vendor of a product associated with the premises. Theproduct may comprise a building, and/or the vendor may comprise a partythat leases the premises. The vendor may also or alternatively comprisea property management organization. The server may be included within anetwork operations center. The logic may comprise, according to variousembodiments of the invention, software, hardware, or a combination ofsoftware and hardware.

Another embodiment to the invention is directed to a gateway. Thegateway includes an interface coupled to a network of premisesmanagement devices, logic that receives data from different premisesmanagement devices, and an interface coupled to a communications mediumthat is coupled to a server. The server is coupled to a portal coupledto the communications medium. The portal provides communications withthe premises management devices.

According to various embodiments of the invention alone or in variouscombinations: the communications medium may comprise the Internet; theportal may comprise an Internet to portal; and/or the portal may bebranded with the name of a vendor of a product associated with thepremises. The product may comprise a building; the vendor may comprise aparty that leases the premises; the vendor may comprise a propertymanagement organization; and/or the server may be included within anetwork operations center.

Provided herein is a gateway device for managing a set of two or morelocal management devices at a location. The gateway device, in someembodiments, comprises a first interface that allows connectivity to aremote network over which the gateway can communicate to remote systemswhich are remote to the location. In some embodiments, the gatewaydevice comprises a second interface for communication to a local networkincluding a set of local management devices. The gateway device may alsocomprise a processor, memory. In some embodiments, the gateway devicecomprises an address of a gateway registry, a serial number of thegateway device, and a key.

In some embodiments, the gateway device comprises logic that, uponinitialization of the gateway device, uses the address of the gatewayregistry to communicate between the gateway device and the gatewayregistry. In some embodiments, the logic of the gateway device sends,from the gateway device over the remote network, a request to thegateway registry specifying the serial number of the gateway device. Inresponse to the request, in some embodiments, the logic of the gatewaydevice receives in the gateway device, from the gateway registry overthe remote network, a response including an address of a gateway serverthat has an account associated with the gateway device for managing thelocation associated with the gateway device. In some embodiments, thelogic of the gateway device receives, from the gateway registry over theremote network, an identification of the account associated with thegateway device for managing the location associated with the gatewaydevice. The logic of the gateway device, in some embodiments,communicates between the gateway device and the gateway server uponwhich the account associated with the gateway device is stored usingauthentication information derived based on the key, and communicates,over the remote network from the gateway device to the gateway serverupon which the account associated with the gateway device is stored, theidentification of the account that was received from the gatewayregistry and, in response to the communication of the identification ofthe account that was received from the gateway registry, receivesaccount information from the gateway server.

The gateway device, in some embodiments, comprises logic that afterinitialization of the gateway device, uses the account information tomanage a set of local management devices connected to a local networklocated at the location, wherein the gateway device is also located atthe location and connected to the local network.

In some embodiments, the account stored on the gateway server includeshistorical data for the local network. The account stored on the gatewayserver may include settings for devices associated with the account. Theauthentication information that may be derived based on the key isderived by applying a hash function to the key. In some embodiments, theserial number of the gateway device comprises the media access control(MAC) address of the gateway device.

In some embodiments, the gateway registry is included on a first serverand the gateway server is included on a second server located physicallyseparate from the first server.

In some embodiments, the location may comprise a residence. In otherembodiments, the location may comprise a business premises.

In some embodiments, the remote network comprises the Internet.

In some embodiments, the logic comprises a computer. The logic maycomprise computer program code stored in a memory on the gateway device.The logic may comprise electronic circuitry included in the gatewaydevice. In some embodiments, the logic comprises electronic circuitryand computer program code in the gateway device.

In some embodiments, the logic for managing the set of local managementdevices comprises automation logic that initiates actions with respectto the local management devices upon certain conditions. In someembodiments, the automation logic is configured based on accountinformation received from the gateway server. In some embodiments, thelogic for managing the set of local management devices takes actionsdepending on a mode.

Provided herein is a system for networks at a plurality of locations. Insome embodiments, the system comprises a plurality of control networks.A control network may include a plurality of management devices at alocation and a gateway device, as described herein. The gateway devicein a control network may include a first interface for communicatingbetween systems remote from the location, a second interface forcommunicating between at least one management device at the location, anaddress of a gateway registry, a serial number of the gateway device,and a key.

The system, in some embodiments, may comprise a gateway registryincluding serial numbers of gateway devices of the respective controlnetworks, identifications of accounts for the control networks, and theserver address of a gateway server upon which the account associatedwith the control network is stored. The gateway registry may compriselogic that uses the gateway serial number of the gateway device todetermine the identification of the account associated with the gatewaydevice, logic that communicates to the gateway device the determinedidentification of the account associated with the gateway device and theserver address of the gateway server upon which the account informationis stored.

In some embodiments, the system comprises a gateway server includingdetails of the accounts for the control networks, identifications of theaccounts, and keys of gateway devices in the control networks associatedwith the account. In some embodiments, the server includes logic thatauthenticates communication from respective gateway devices using thekeys stored in the gateway server and authentication informationreceived from respective gateway devices, and logic that providesaccount information to respective authenticated gateway devices based onidentifications of accounts provided by the respective gateway devices.

In some embodiments, the account information provided by logic of theserver comprises historical data for the local network. In someembodiments, the account information provided by logic of the servercomprises settings for devices associated with the account. In someembodiments, the logic in the gateway server that authenticates appliesa hash function to the key stored in the gateway server that isassociated with the account. In some embodiments, the authenticationinformation received from the gateway device is derived by applying thehash function to the key stored in the gateway device.

In some embodiments, the system includes a plurality of gateway serversand wherein the gateway registry includes a set of addresses torespective gateway servers and an association between gateway device andrespective gateway server. In some embodiments, the gateway registry andthe gateway server are comprised by a single computer system. In someembodiments, the gateway registry includes a table having an associationbetween each gateway serial number and corresponding account number andgateway server. In some embodiments, the gateway server includes a tablehaving an association between each gateway account identification andcorresponding key.

In some embodiments, the local management devices and the gateway deviceare coupled by at least one of an RF, Z-wave, a wireless connection, awired connection, and an IP connection to the local network. In someembodiments, the serial number of the gateway device comprises the mediaaccess control (MAC) address of the gateway device. In some embodiments,the gateway registry is included on a first server and the gatewayserver is included on a second server located physically separate fromthe first server.

In some embodiments of the system, the location comprises a residence.In some embodiments of the system, the location comprises a businesspremises. In some embodiments, the remote network comprises theInternet.

Provided herein is a method of operating a gateway device in a controlnetwork. In some embodiments, the method of operating a gateway devicein a control, network comprises storing on the gateway device an addressof a gateway registry, a serial number of the gateway device, and a key.The method may further comprise using the address of the gatewayregistry to communicate between the gateway device and the gatewayregistry, and sending, from the gateway device over the remote network,a request to the gateway registry specifying the serial number of thegateway device.

In response to the request, in some embodiments the method comprisesreceiving in the gateway device, from the gateway registry over theremote network, a response including an address of a gateway server thathas an account associated with the gateway device for managing a set oflocal management devices connected to a local network located at thelocation associated with the gateway device. In response to the request,in some embodiments the method comprises receiving in the gatewaydevice, from the gateway registry over the remote network, anidentification of the account associated with the gateway device formanaging the location associated with the gateway device.

The method may further comprise communicating between the gateway deviceand the gateway server upon which the account associated with thegateway device is stored using authentication information derived basedon the key. In some embodiments, the method comprises communicating,over the remote network from the gateway device to the gateway serverupon which the account associated with the gateway device is stored, theidentification of the account that was received from the gatewayregistry. In response to the communication of the identification of theaccount that was received from the gateway registry, in some embodimentsthe method comprises receiving account information from the gatewayserver.

The method may comprise using the account information to manage the setof local management devices connected to the local network located atthe location, wherein the gateway device is also located at the locationand connected to the local network.

In some embodiments of the method, the authentication informationderived based on the key is derived by applying a hash function to thekey. In some embodiments of the method the serial number of the gatewaydevice comprises the media access control (MAC) address of the gatewaydevice. In some embodiments of the method, the gateway registry isincluded on a first server and the gateway server is included on asecond server located physically separate from the first server. In someembodiments of the method, the location comprises a residence. In someembodiments of the method, the location comprises a business premises.In some embodiments of the method, the remote network comprises theInternet.

In some embodiments, the method further comprises storing the accountidentification and the gateway server address in the gateway device.

Provided herein is a method for storing information to operate a gatewaydevice in a control network. In some embodiments, the method comprisesstoring an identification associated with an account associated with agateway device, a serial number associated with the gateway device, anda key associated with the gateway device in a location remote from alocation of the gateway device. In some embodiments, the methodcomprises populating a table of a gateway registry with the serialnumber associated with the gateway device, a gateway server locationassociated with an account associated with the gateway device, and theidentification associated with the gateway device, wherein the serialnumber, the server location, and the identification are associated witheach other in the gateway registry table. In some embodiments, themethod comprises populating a table of the gateway server with theidentification associated with the gateway device and the key associatedwith the gateway device, wherein the identification and the key areassociated with each other in the gateway server and wherein theidentification and key are associated with the account associated withthe gateway device in the gateway server.

In some embodiments of the method for storing information to operate agateway device in a control network, the steps of storing theidentification, populating the gateway registry table, and populatingthe gateway server table may be controlled by a gateway account manager.In some embodiments of the method for storing information to operate agateway device in a control network, the steps of storing theidentification, populating the gateway registry table, and populatingthe gateway server table may be controlled by a remote managementdevice.

Provided herein is a method for storing information to operate a newgateway device in a control network, wherein the control network hasbeen previously associated with a previous gateway device. The storingof information may be in a location remote from a location of theprevious gateway device. The information to operate the new gatewaydevice in the control network may be stored in a table of a gatewayregistry and in a table of a gateway server.

The method for storing information to operate a new gateway device in acontrol network may comprise finding an identification associated withan account associated with the previous gateway device stored in thelocation remote from the location of the previous gateway device. Thefinding may comprise looking up the identification. The finding maycomprise requesting the identification. In some embodiments the locationis a master database. In some embodiments, a first serial numberassociated with the previous gateway device and associated with a serverlocation has been stored in a table of a gateway registry, and a firstkey associated with the previous gateway device has been stored in atable of a gateway server at the server location. In some embodiments,the identification associated with the account associated with theprevious gateway device has been stored in the gateway registry and inthe gateway server.

The method for storing information to operate a new gateway device in acontrol network may further comprise storing a second serial numberassociated with the new gateway device, and a second key associated withthe new gateway device in the location remote from the location of theprevious gateway device. In some embodiments, the location is the masterdatabase.

The method for storing information to operate a new gateway device in acontrol network may further comprise populating the table of the gatewayregistry with the second serial number of the new gateway device byassociating the second serial number with the same identification andserver location previously associated with a first serial numberassociated with the previous gateway device, wherein a gateway serverlocation associated with the account associated with the previousgateway device becomes the gateway server location associated with theaccount associated with the new gateway device, and wherein accountidentification associated with the account associated with the previousgateway device becomes the gateway server location associated with theaccount associated with the new gateway device, and wherein the secondserial number of the new gateway, the server location, and theidentification are associated with each other in the gateway registrytable. In some embodiments, the method for storing information tooperate a new gateway device in a control network may further comprisepopulating a table of the gateway server with a second key associatedwith the new gateway device by associating the second key with theidentification in the table previously associated with a first keyassociated with the previous gateway device, wherein the account and theidentification associated with the previous gateway device becomes theaccount and identification associated with the new gateway device,wherein the identification and the second key are associated with eachother and with the account associated with the new gateway device in thetable of the gateway server.

In some embodiments, the steps of storing the identification, populatingthe gateway registry table, and populating the gateway server table maybe controlled by a gateway account manager. In some embodiments, thesteps of storing the identification, populating the gateway registrytable, and populating the gateway server table may be controlled by aremote management device.

Aspects of the systems and methods described herein may be implementedas functionality programmed into any of a variety of circuitry,including programmable logic devices (PLDs), such as field programmablegate arrays (FPGAs), programmable array logic (PAL) devices,electrically programmable logic and memory devices and standardcell-based devices, as well as application specific integrated circuits(ASICs). Some other possibilities for implementing aspects of thesystems and methods include: microcontrollers with memory, embeddedmicroprocessors, firmware, software, etc. Furthermore, aspects of thesystems and methods may be embodied in microprocessors havingsoftware-based circuit emulation, discrete logic (sequential andcombinatorial), custom devices, fuzzy (neural network) logic, quantumdevices, and hybrids of any of the above device types. Of course theunderlying device technologies may be provided in a variety of componenttypes, e.g., metal-oxide semiconductor field-effect transistor (MOSFET)technologies like complementary metal-oxide semiconductor (CMOS),bipolar technologies like emitter-coupled logic (ECL), polymertechnologies (e.g., silicon-conjugated polymer and metal-conjugatedpolymer-metal structures), mixed analog and digital, etc.

It should be noted that the various functions or processes disclosedherein may be described as data and/or instructions embodied in variouscomputer-readable media, in terms of their behavioral, registertransfer, logic component, transistor, layout geometries, and/or othercharacteristics. Computer-readable media in which such formatted dataand/or instructions may be embodied include, but are not limited to,non-volatile storage media in various forms (e.g., optical, magnetic orsemiconductor storage media) and carrier waves that may be used totransfer such formatted data and/or instructions through wireless,optical, or wired signaling media or any combination thereof. Examplesof transfers of such formatted data and/or instructions by carrier wavesinclude, but are not limited to, transfers (uploads, downloads, email,etc.) over the Internet and/or other computer networks via one or moredata transfer protocols (e.g., Hypertext Transfer Protocol (HTTP), FileTransfer Protocol (FTP), Simple Mail Transfer Protocol (SMTP), etc.).When received within a computer system via one or more computer-readablemedia, such data and/or instruction-based expressions of componentsand/or processes under the systems and methods may be processed by aprocessing entity (e.g., one or more processors) within the computersystem in conjunction with execution of one or more other computerprograms.

Unless the context clearly requires otherwise, throughout thedescription and the claims, the words ‘comprise,’ ‘comprising,’ and thelike are to be construed in an inclusive sense as opposed to anexclusive or exhaustive sense; that is to say, in a sense of ‘including,but not limited to.’ Words using the singular or plural number alsoinclude the plural or singular number respectively. Additionally, thewords ‘herein,’ ‘hereunder,’ ‘above,’ ‘below,’ and words of similarimport refer to this application as a whole and not to any particularportions of this application. When the word ‘or’ is used in reference toa list of two or more items, that word covers all of the followinginterpretations of the word: any of the items in the list, all of theitems in the list and any combination of the items in the list.

The above description of illustrated embodiments of the systems andmethods is not intended to be exhaustive or to limit the systems andmethods to the precise form disclosed. While specific embodiments of,and examples for, the systems and methods are described herein forillustrative purposes, various equivalent modifications are possiblewithin the scope of the systems and methods, as those skilled in therelevant art will recognize. The teachings of the systems and methodsprovided herein can be applied to other processing systems and methods,not only for the systems and methods described above.

The elements and acts of the various embodiments described above can becombined to provide further embodiments. These and other changes can bemade to the systems and methods in light of the above detaileddescription.

In general, the terms used should not be construed to limit the systemsand methods to the specific embodiments disclosed in the specificationand the claims, but should be construed to include all processingsystems that operate under the claims. Accordingly, the systems andmethods are not limited by the disclosure.

While certain aspects of the systems and methods may be presented incertain claim forms, the inventors contemplate the various aspects ofthe systems and methods in any number of claim forms. Accordingly, theinventors reserve the right to add additional claims after filing theapplication to pursue such additional claim forms for other aspects ofthe systems and methods.

1. A method for storing information to operate a gateway device in acontrol network, the method comprising: a remote management devicestoring an identification associated with an account associated with agateway device, a serial number associated with the gateway device, anda key associated with the gateway device in a location remote from alocation of the gateway device; the remote management device populatinga table of a gateway registry with the serial number associated with thegateway device, a server location of the gateway server associated withan account associated with the gateway device, and the identificationassociated with the gateway device, wherein the serial number, theserver location, and the identification are associated with each otherin the table of the gateway registry; and the remote management devicepopulating a table of the gateway server with the identificationassociated with the gateway device and the key associated with thegateway device, wherein the identification and the key are associatedwith each other in the gateway server and wherein the identification andkey are associated with the account associated with the gateway devicein the gateway server.
 2. A method for storing information to operate anew gateway device in a control network, wherein the control network hasbeen previously associated with a previous gateway device in a locationremote from a location of the previous gateway device, in a table of agateway registry and in a table of the gateway server, the methodcomprising: a remote management device finding an identificationassociated with an account associated with the previous gateway devicestored in the location remote from the location of the previous gatewaydevice; the remote management device storing a second serial numberassociated with the new gateway device, and a second key associated withthe new gateway device in the location remote from the location of theprevious gateway device; the remote management device populating thetable of the gateway registry with the second serial number of the newgateway device by associating the second serial number with the sameidentification and server location previously associated with a firstserial number associated with the previous gateway device, wherein agateway server location associated with the account associated with theprevious gateway device becomes the gateway server location associatedwith an account associated with the new gateway device, and whereinaccount identification associated with the account associated with theprevious gateway device becomes the gateway server location associatedwith the account associated with the new gateway device, and wherein thesecond serial number of the new gateway device, the server location, andthe identification are associated with each other in the table of thegateway registry; and the remote management device populating the tableof the gateway server with a second key associated with the new gatewaydevice by associating the second key with an identification in the tableof the gateway server previously associated with a first key associatedwith the previous gateway device, wherein the account and theidentification associated with the previous gateway device becomes anaccount and identification associated with the new gateway device,wherein the identification and the second key are associated with eachother and with the account associated with the new gateway device in thetable of the gateway server.